Basic principles of electromechanical energy conversion and power system analysis.
Modeling, simulation, realization, analysis and feedback control design of dynamic systems.
Design and performance analysis of electric machines in steady-state and dynamic conditions using a simulation on PC and lab experiments.
AC and DC power flow analysis; active and reactive power compensation; linear sensitivity factors; contingency analysis; available transfer capacity.
Design and test of DC motor variable speed drives combined with an analysis of their static and dynamic properties.
Senior Design Projects.
Grid requirements for Photovoltaic and wind energy systems; Generators and converter structures for wind energy systems; Photovoltaic converter structures; Grid converter control for photovoltaic and wind energy systems.
Power system architecture of electric and hybrid electric vehicles, components of electrified powertrains including energy storage system, power electronics converters and electric machines, torque and speed control of electric propulsion motors, fundamentals of chargers.